References

Allan, L.G., The internal clock revisited, in Time, Action and Cognition: Toward Bridging the Gap, Macar, F., Pouthas, V., and Friedman, W.J., Eds., Kluwer Academic Publishers, Dordrecht, Netherlands, 1992, pp. 191-202.

Barnes, R. and Jones, M.R., Expectancy, attention, and time, Cognit. Psychol., 41, 254-311, 2000.

Brown, S.W., Time perception and attention: the effects of prospective versus retrospective paradigms and task demands on perceived duration, Percept. Psychophys., 38, 115-124, 1985.

Brown, S.W., Stubbs, D.A., and West, A.N., Attention, multiple timing, and psychophysical scaling of temporal judgments, in Time, Action and Cognition: Toward Bridging the Gap, Macar, F., Pouthas, V., and Friedman, W.J., Eds., Kluwer Academic Publishers, Dordrecht, Netherlands, 1992, pp. 191-202.

Brown, S.W. and West, A.N., Multiple timing and the allocation of attention, Acta Psychol., 75, 103-121, 1990.

Casini, L. and Ivry, R.B., Effects of divided attention on temporal processing in patients with lesions of the cerebellum or frontal lobe, Neuropsychology, 13, 10-21, 1999.

Church, R.M. and Broadbent, H.A., A connectionist model of timing, in Models of Behavior: Neural Network Models of Conditioning, Commons, M.L., Grossberg, S., and Stad-don, J.E.R., Eds., Lawrence Erlbaum Associates, Hillsdale, NJ, 1991, pp. 225-240.

Church, R.M. and Gibbon, J., Temporal generalization, J. Exp. Psychol. Anim. Behav. Process., 8, 165-186, 1982.

Church, R.M., Meck, W.H., and Gibbon, J., Application of scalar timing theory to individual trials, J. Exp. Psychol. Anim. Behav. Process, 20, 135-155, 1994.

Corbetta, M., Miezin, F.M., Dobmeyer, S., Schulman, G.L., and Petersen, S.E., Selective and divided attention during visual discriminations of shape, color and speed: functional anatomy by positron emission tomography, J. Neurosci, 11, 2383-2402, 1991.

Donoghue, J.P., Kerman, K.L., and Ebner, F.F., Evidence for two organizational plans within the somatic sensory-motor cortex of the rat, J. Comp. Neurol, 183, 647-663, 1979.

Donoghue, J.P. and Wise, S.P., The motor cortex of the rat: cytoarchitecture and microstimulation mapping, J. Comp. Neurol., 212, 76-88, 1982.

Fortin, C. and Masse, N., Order information in short-term memory and time estimation, Mem. Cognit, 27, 54-62, 1999.

Fortin, C. and Masse, N., Expecting a break in time estimation: attentional time-sharing without concurrent processing, J. Exp. Psychol. Hum. Percept. Perform, 26, 1788-1796, 2000.

Fraisse, P., The Psychology of Time, Harper & Row, New York, 1963.

Gibbon, J., Scalar expectancy theory and Weber's law in animal timing, Psychol. Rev, 84, 279-325, 1977.

Gibbon, J., Church, R.M., and Meck, W.H., Scalar timing in memory, in Annals of the New York Academy of Sciences, Vol. 423, Timing and Time Perception, Gibbon, J. and Allan, L.G., Eds., New York Academy Press, New York, 1984, pp. 52-77.

Godefroy, O., Lhullier, C., and Rousseaux, M., Non-spatial attention disorders in patients with frontal or posterior brain damage, Brain, 119, 191-202, 1996.

Godefroy, O. and Rousseaux, M., Divided and focused attention in patients with lesion of the prefrontal cortex, Brain Cognit., 30, 155-174, 1996.

Harrington, D.L., Haaland, K.Y., and Knight, R.T., Cortical networks underlying mechanisms of time perception, J. Neurosci., 18, 1085-1095, 1998.

Hicks, R.E., Miller, G.W., Gaes, G., and Bierman, K., Concurrent processing demands and the experience of time-in-passing, Am. J. Psychol., 90, 431-446, 1977.

Ivry, R., Cerebellar involvement in the explicit representation of temporal information, Ann. N.Y. Acad. Sci, 682, 214-230, 1993.

Ivry, R.B., The representation of temporal information in perception and motor control, Curr. Opin. Neurobiol, 6, 851-857, 1996.

Ivry, R.B. and Hazeltine, R.E., Perception and production of temporal intervals across a range of durations: evidence for a common timing mechanism, J. Exp. Psychol. Hum. Percept. Perform, 21, 3-18, 1995.

Johnston, J.C., McCann, R.S., and Remington, R.W., Chronometric evidence for two types of attention, Psychol. Sci., 6, 365-369, 1995.

Jones, M.R., Time, our lost dimension: toward a new theory of perception, attention, and memory, Psychol. Rev., 83, 323-355, 1976.

Jones, M.R. and Boltz, M., Dynamic attending and responses to time, Psychol. Rev, 96, 459-491, 1989.

Killeen, P.R. and Fetterman, J.G., A behavioral theory of timing, Psychol. Rev, 95, 274-295, 1988.

Krettek, J.E. and Price, J.L., The cortical projections of the mediodorsal nucleus and adjacent thalamic nuclei in the rat, J. Comp. Neurol., 171, 157-191, 1977.

Large, E.W. and Jones, M.R., The dynamics of attending: how we track time varying events, Psychol. Rev, 106, 119-159, 1999.

Lejeune, H., Switching or gating? The attentional challenge in cognitive models of psychological time, Behav. Process, 44, 127-145, 1998.

Macar, F., Grondin, S., and Casini, L., Controlled attention sharing influences time estimation, Mem. Cognit, 22, 673-686, 1994.

Macar, F., Vidal, F., and Casini, L., The supplementary motor area in motor and sensory timing: evidence from slow brain potential changes, Exp. Brain Res, 125, 271-280, 1999.

Mangels, J.A., Ivry, R.B., and Shimizu, N., Dissociable contributions of the prefrontal and neocerebellar cortex to time perception, Brain Res. Cognit. Brain Res., 7, 15-39, 1998.

Maquet, P., Lejeune, H., Pouthas, V., Bonnet, M., Casini, L., Macar, F., Timsit-Berthier, M., Vidal, F., Ferrara, A., Degueldre, C., Quaglia, L., Delfiore, G., Luxen, A., Woods, R., Mazziotta, J.C., and Comar, D., Brain activation induced by estimation of duration: a PET study, Neuroimage, 3, 119-126, 1996.

Matell, M.S. and Meck, W.H., Neuropsychological mechanisms of interval timing behavior, Bioessays, 22, 94-103, 2000.

McAuley, J.D., Perception of time as phase: toward an adaptive-oscillator model of rhythmic pattern processing, Diss. Abstr. Int., 56, 4988, 1996 (Doctoral dissertation, Indiana University, 1996).

McAuley, J.D. and Jones, M.R., Rhythmic expectations in time judgment behavior: implications for entrainment and interval-based models of time perception, submitted.

McAuley, J.D. and Kidd, G.R., Effect of deviations from temporal expectations on tempo discrimination of isochronous tone sequences, J. Exp. Psychol. Hum. Percept. Perform, 24, 1786-1800, 1998.

Meck, W.H., Affinity for the dopamine D2 receptor predicts neuroleptic potency in decreasing the speed of an internal clock, Pharmacol. Biochem. Behav, 25, 1185-1189, 1986.

Meck, W.H., Vasopressin metabolite neuropeptide facilitates simultaneous temporal processing, Behav. Brain Res., 23, 147-157, 1987.

Meck, W.H., Neuropharmacology of timing and time perception, Cognit. Brain Res., 3, 227-242, 1996.

Meck, W.H. and Benson, A.M., Dissecting the brain's internal clock: how frontal-striatal circuitry keeps time and shifts attention, Brain Cognit., 48, 195-211, 2002.

Meck, W.H. and Church, R.M., Simultaneous temporal processing, J. Exp. Psychol. Anim. Behav. Process., 10, 1-29, 1984.

Meck, W.H., Church, R.M., and Wenk, G.L., Arginine vasopressin innoculates against age-related increases in sodium-dependent high affinity choline uptake and discrepancies in the content of temporal memory, Eur. J. Pharmacol., 130, 327-331, 1986.

Meck, W.H. and Williams, C.L., Simultaneous temporal processing is sensitive to prenatal choline availability in mature and aged rats, Neuroreport, 8, 3045-3051, 1997.

Miall, C., The storage of time intervals using oscillating neurons, Neural Comput., 1, 359-371, 1989.

Monfort, V., Pouthas, V., and Ragot, R., Role of frontal cortex in memory for duration: an event-related potential study in humans, Neurosci. Lett, 286, 91-94, 2000.

Neafsey, E.J., Bold, E.L., Haas, G., Hurley-Gius, K.M., Quirk, G., Sievert, C.F., and Ter-reberry, R.R., The organization of the rat motor cortex: a microstimulation mapping study, Brain Res., 396, 77-96, 1986.

Niki, H. and Watanabe, M., Prefrontal and cingulate unit activity during timing behavior in the monkey, Brain Res., 171, 213-224, 1979.

Olton, D.S. and Pang, K., Interactions of neurotransmitters and neuroanatomy: it's not what you do, it's the place that you do it, in Neurotransmitter Interactions and Cognitive Function, Levin, E.D., Decker, M.W., and Butcher, L.L., Eds., Birkhauser, Boston,

Olton, D.S., Wenk, G.L., Church, R.M., and Meck, W.H., Attention and the frontal cortex as examined by simultaneous temporal processing, Neuropsychologia, 26, 307-318, 1988.

Pang, K.C., Yoder, R.M., and Olton, D.S., Neurons in the lateral agranular frontal cortex have divided attention correlates in a simultaneous temporal processing task, Neuroscience, 103, 615-628, 2001.

Pardo, J.V., Pardo, P.J., Janer, K.W., and Raichle, M.E., The anterior cingulate cortex mediates processing selection in the Stroop attentional conflict paradigm, Proc. Natl. Acad. Sci. U.S.A., 87, 256-259, 1990.

Pashler, H., Dual-task interference and elementary mental mechanisms, in Attention and Performance, XIV, Meyer, D.E. and Kornblum, S., Eds., MIT Press, Cambridge, MA,

Pashler, H., Perception and production of brief durations: beat-based versus interval-based timing, J. Exp. Psychol. Hum. Percept. Perform., 27, 485-493, 2001.

Pashler, H. and Johnston, J.C., Attentional limitations in dual-task performance, in Attention, Pashler, H., Ed., Psychology Press, Ltd., East Sussex, U.K., 1998, pp. 155-189.

Port, R.F., Mind as Motion: Explorations in the Dynamics of Cognition, MIT Press, Cambridge, MA, 1995.

Rakitin, B.C., Gibbon, J., Penney, T.B., Malapani, C., Hinton, S.C., and Meck, W.H., Scalar expectancy theory and peak-interval timing in humans, J. Exp. Psychol. Anim. Behav. Process, 24, 15-33, 1998.

Rao, S.M., Harrington, D.L., Haaland, K.Y., Bobholz, J.A., Cox, R.W., and Binder, J.R., Distributed neural systems underlying the timing of movements, J. Neurosci, 17, 5528-5535, 1997.

Roberts, S., Isolation of an internal clock, J. Exp. Psychol. Anim. Behav. Process, 7, 242-268, 1981.

Rubia, K., Overmeyer S., Taylor, E., Brammer, M., Williams, S., Simmons, A., Andrew, C., and Bullmore, E., Prefrontal involvement in "temporal bridging" and timing movement, Neuropsychologia, 36, 1283-1293, 1998.

Sternberg, R.J., Cognitive Psychology, 2nd ed., Harcourt Brace & Company, New York, 1999.

Thomas, E.A.C. and Weaver, W.B., Cognitive processing and time perception, Percept. Psy-chophys., 17, 363-367, 1975.

Tracy, J.I., Faro, S.H., Mohamed, F.B., Pinsk, M., and Pinus, A., Functional localization of a "time keeper" function separate from attentional resources and task strategy, Neuroimage, 11, 228-242, 2000.

Treisman, M., Temporal discrimination on the indifference interval: implications for the model of the "internal clock," Psychol. Monogr. Gen. Appl, 77, 1-31, 1963.

Vandenberghe, R., Duncan, J., Dupont, P., Ward, R., Poline, J.B., Bormans, G., Michiels, J., Mortelmans, L., and Orban, G.A., Attention to one or two features in left or right visual field: a positron emission tomograph study, J. Neurosci, 17, 3739-3750, 1997.

Wang, Y. and Kurata, K., Quantitative analyses of thalamic and cortical origins of neurons projecting to the rostral and caudal forelimb motor areas in the cerebral cortex of rats, Brain Res, 781, 135-147, 1998.

Zakay, D., Subjective time and attentional resource allocation: an integrated model of time estimation, in Advances in Psychology, Vol. 59, Time and Human Cognition: A LifeSpan Perspective, Levin I. and Zakay, D., Eds., Elsevier, Amsterdam, 1989, pp. 365-397.

Zakay, D. and Block, R.A., The role of attention in time estimation processes, in Time, Internal Clocks and Movement, Pastor, M.A. and Artieda, J., Eds., Elsevier, Amsterdam, 1996, pp. 143-164.

Integration of Behavior and Timing: Anatomically Separate Systems or Distributed Processing?

The 10 Keys To Happiness

The 10 Keys To Happiness

Simple Ways to Be Happy and Enjoy Your Life Regardless of Circumstances. Happiness is the underlying foundation that influences the quality of life. Have you ever seen someone who lives in a small house and has an older car? They may not be rich in terms of material things, but they are beyond rich in their happiness.

Get My Free Ebook


Post a comment